CN102076078A

CN102076078A - Method and system for synchronizing adjacent relations

Info

Publication number: CN102076078A
Application number: CN2009102379276A
Authority: CN
Inventors: 魏汉辉; 陈志辉; 吴祁斌; 陈聪颖; 吴通元
Original assignee: China Mobile Group Fujian Co Ltd
Current assignee: China Mobile Group Fujian Co Ltd
Priority date: 2009-11-25
Filing date: 2009-11-25
Publication date: 2011-05-25

Abstract

The invention discloses a method and a system for synchronizing adjacent relations. The method comprises the following steps of: collecting adjacent relations of a current mobile communication system and various cell parameters of a target mobile communication system; determining corresponding cell parameters in the target mobile communication system according to location area code (LAC) identifications of various cells in the adjacent relations, verifying whether the parameters are consistent with the cell parameters of the adjacent relations or not, and if not, determining that the adjacent relations are needed to be synchronized; and synchronizing all the counted adjacent relations required to be synchronized. The method and the system can be used for timely and efficiently synchronizing the adjacent relations.

Description

The method and system synchronous to neighboring BS relationship

Technical field

The present invention relates to the simultaneous techniques of mobile communication system, particularly a kind of method and system synchronous to neighboring BS relationship.

Background technology

Development along with mobile communication technology, in very long a period of time, the situation that the coexistence of second generation mobile communication system and 3-G (Generation Three mobile communication system) occurred, such as second generation mobile communication system is digital cellular mobile communication systems (GSM), and 3-G (Generation Three mobile communication system) is time division multiplexing mobile communication system (TD-SCDMA).At this moment, when communicating or transmit data, just need between these two different mobile communication systems, switch.For carrying out smoothly of guaranteeing to switch, just need guarantee in the neighboring BS relationship parameter of current mobile communication system consistently with the respective cell parameter of the target mobile communication system that will switch to, the neighboring BS relationship that is called mobile communication system is synchronous.

In order to make subscriber equipment (UE) to switch to GSM from TD-SCDMA reposefully, perhaps UE can switch to TD-SCDMA from TD-SCDMA from GSM reposefully, in TD-SCDMA, need correct and reasonable disposition GSM Neighboring Relation Table, comprised each cell parameter of GSM in this tabulation, these cell parameters are identical with this cell parameter among the GSM; Equally, in GSM, also need correct and reasonable disposition TD-SCDMA Neighboring Relation Table, comprised each cell parameter of TD-SCDMA in this tabulation, these cell parameters are identical with this cell parameter among the TD-SCDMA.If the Neighboring Relation Table of current mobile communication system configuration is unreasonable, just and the cell parameter of corresponding target mobile communication system not corresponding, will cause the different mobile communication system the interoperability class problem and influence communication quality.

In the process of mobile communication system being carried out tuning and row's barrier, often need to adjust the cell parameter of mobile communication system, reach the tuning of administration sub-district or the purpose of row's barrier.In this process, often support because of complicated operation shortage instrument, and can't upgrade or proofread and correct the neighboring BS relationship relevant parameter of sub-district in another mobile communications network synchronously, both inconsistent problems have appearred, inconsistent such as the corresponding cell parameter of TD-SCDMA neighboring BS relationship parameter and TD-SCDMA among the GSM, and GSM neighboring BS relationship parameter and the corresponding cell parameter of GSM are inconsistent among the TD-SCDMA, cause communication quality to descend.

In order to overcome the problems referred to above, at present main method is: the neighboring BS relationship relevant parameter that the technical staff is responsible for specially being preserved in the cell parameter of mobile communication system and corresponding another mobile communication system carries out manual inspection, judge whether unanimity, when inconsistent, carry out synchronously.But, carry out like this neighboring BS relationship parameter synchronously, need artificial two mobile communication system of leap, inefficiency, simultaneously because the containing much information of neighboring BS relationship in the Neighboring Relation Table, careless omission easily, therefore usually untimely synchronously to neighboring BS relationship.

Summary of the invention

In view of this, the invention provides a kind of method synchronous to neighboring BS relationship, this method can be in time and high neighboring BS relationship is carried out synchronously of efficient.

The present invention also provides a kind of system synchronous to neighboring BS relationship, and this method can be in time and high neighboring BS relationship is carried out synchronously of efficient.

For achieving the above object, the technical scheme of the embodiment of the invention specifically is achieved in that

A kind of method synchronous to neighboring BS relationship, this method comprises:

Gather the neighboring BS relationship of current mobile communication system and each cell parameter of target mobile communication system;

Whether LAC determines cell parameter in the corresponding target mobile communication system according to the location area code of each sub-district in neighboring BS relationship sign, verify consistently with the cell parameter of neighboring BS relationship, if inconsistent, it is synchronous to determine that then this neighboring BS relationship needs;

In batches statistics being obtained all needs synchronous neighboring BS relationship to carry out synchronously.

A kind of system synchronous to neighboring BS relationship comprises: acquisition module, analysis and sign neighboring BS relationship module, the derivation that needs synchronized cells and generation synch command module and synchronization module, wherein,

Acquisition module is used to gather the neighboring BS relationship of current mobile communication system and the cell parameter of target mobile communication system;

Analyze and sign neighboring BS relationship module, be used for determining cell parameter in the corresponding target mobile communication system according to the LAC sign of each sub-district of neighboring BS relationship of current mobile communication system, judge whether both are consistent, if it is inconsistent, determine that this neighboring BS relationship needs synchronously, statistics obtains all needs synchronous Neighboring Relation Table;

Need the derivation of synchronized cells and generate the synch command module, be used to derive the synchronous Neighboring Relation Table of needs and send synch command to synchronization module;

Synchronization module is used in batches the synchronous Neighboring Relation Table of current mobile communication system needs being carried out synchronously according to synch command.

As seen from the above technical solution, the present invention gathers the neighboring BS relationship of current mobile communication system and the cell parameter of target mobile communication system, determine in the target mobile communication system after the corresponding district parameter according to the location area code of neighboring BS relationship sign (LAC), carry out consistency checking with the cell parameter in the neighboring BS relationship, needing to obtain synchronous neighboring BS relationship, carry out the synchronous of neighboring BS relationship in batches.Since the method and system that the present invention adopts unlike prior art, need the technical staff manual finish to neighboring BS relationship synchronously, therefore can be in time and high neighboring BS relationship is carried out synchronously of efficient.Further, this method is when the cell parameter change of target mobile communication system, and the corresponding neighboring BS relationship that can also trigger current mobile communication system is synchronous, reaches the in time synchronous of neighboring BS relationship.

Description of drawings

Fig. 1 is the method flow diagram synchronous to neighboring BS relationship provided by the invention;

Fig. 2 is the system schematic synchronous to neighboring BS relationship provided by the invention;

Fig. 3 is the method embodiment flow chart synchronous to neighboring BS relationship provided by the invention;

Fig. 4 is acquisition module 201 structural representations provided by the invention;

Fig. 5 is the flow chart of acquisition module 201 implementations provided by the invention;

Fig. 6 is analysis provided by the invention and sign neighboring BS relationship module 202 structural representations;

Fig. 7 is the flow chart of the implementation of analysis provided by the invention and sign neighboring BS relationship module 202;

Fig. 8 is derivation and generation synch command module 203 structural representations that need synchronized cells provided by the invention;

Fig. 9 is the workflow diagram that needs the derivation of synchronized cells and generate synch command module 203 provided by the invention;

Figure 10 is the structural representation of synchronization module 204;

Figure 11 imports the workflow diagram of module in batches for the TD-SCDMA neighboring BS relationship among the GSM;

Figure 12 imports the workflow diagram of module in batches for the GSM neighboring BS relationship among the TD-SCDMA.

Embodiment

For making purpose of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, the present invention is described in further detail.

Carrying out neighboring BS relationship when synchronous, need relate to two mobile communication system, in the present invention, for simplicity, will carry out the synchronous mobile communication system of neighboring BS relationship and be called current mobile communication system, will be called the target mobile communications network corresponding to the mobile communications network at place, sub-district in the neighboring BS relationship.

The present invention is in order to carry out neighboring BS relationship when synchronous, timely and easy, no longer adopt the technical staff to carry out by hand synchronously, but finish automatically, the method that adopts is: gather the neighboring BS relationship of current mobile communication system and the cell parameter of target mobile communication system, determine in the target mobile communication system after the corresponding district parameter according to the LAC of neighboring BS relationship, carry out consistency checking with cell parameter in the neighboring BS relationship, needing to obtain synchronous neighboring BS relationship, carry out the synchronous of neighboring BS relationship in batches.

In the present invention, after also can working as the cell parameter modification of target mobile communication system, direct LAC according to this sub-district finds corresponding district in the neighboring BS relationship of current mobile communication system after, the parameter of synchronous this sub-district, like this, just can carry out guaranteeing that the neighboring BS relationship of current mobile communication system is consistent with the parameter of respective cell in the target mobile communication system synchronously in time to the neighboring BS relationship of current mobile communication system.

Fig. 1 is the method flow diagram synchronous to neighboring BS relationship provided by the invention, and this method comprises:

The neighboring BS relationship of step 101, the current mobile communication system of collection.

In this step, the collection of neighboring BS relationship is exactly to gather each cell parameter in the Neighboring Relation Table, and each cell parameter comprises LAC and other parameters at least.

Each cell parameter of step 102, collection target mobile communication system.

Step 103, determine cell parameter in the corresponding target mobile communication system according to the LAC of each sub-district in the Neighboring Relation Table.

Because the LAC of sub-district is unique, thus adopt this LAC just can determine the sub-district of current mobile communication system pairing in the target mobile communication system this sub-district.

Step 104, judge that both are whether consistent,, illustrate that then this neighboring BS relationship does not need synchronously if consistent; If inconsistent, illustrate that then this neighboring BS relationship needs synchronously, statistics obtains all needs synchronous Neighboring Relation Table.

Statistics obtains required synchronous Neighboring Relation Table and comprises: the LAC and the synchronous parameter of these sub-district needs that need synchronized cells.

Step 105, batch are to needing synchronous Neighboring Relation Table to carry out synchronously in the current mobile communication system.

In the present invention, can adopt man-machine interaction language (MML) order to carry out synchronously.

In the method, can also comprise: after the cell parameter of target mobile communication system is revised, directly in the Neighboring Relation Table of current mobile communication system, find corresponding district according to the LAC of sub-district after, the parameter of this sub-district synchronously.

Fig. 2 is the system schematic synchronous to neighboring BS relationship provided by the invention, comprising: derivation and the generation synch command module 203 and the synchronization module 204 of acquisition module 201, analysis and sign neighboring BS relationship module 202, need synchronized cells, wherein,

Acquisition module 201 is used to gather the neighboring BS relationship of current mobile communication system and the cell parameter of target mobile communication system;

Analyze and sign neighboring BS relationship module 202, be used for determining cell parameter in the corresponding target mobile communication system according to the LAC sign of each sub-district of neighboring BS relationship of current mobile communication system, judge that whether both are consistent, if consistent, illustrate that then this neighboring BS relationship does not need synchronously; If inconsistent, illustrate that then this neighboring BS relationship needs synchronously, statistics obtains all needs synchronous Neighboring Relation Table;

Need the derivation of synchronized cells and generate synch command module 203, be used to derive the synchronous Neighboring Relation Table of needs and send synch command to synchronization module;

Synchronization module 204 is used in batches the synchronous Neighboring Relation Table of current mobile communication system needs being carried out synchronously according to synch command.

After the cell parameter of target mobile communication system was revised, directly triggering collection module 201 was used for finding corresponding district according to the LAC of sub-district at the Neighboring Relation Table of current mobile communication system; Need the derivation of synchronized cells and generate synch command module 203, be used to generate the order of this sub-district synchronously; Synchronization module 204 is used for carrying out the synchronous of this cell parameter according to this synch command.

Below be GSM with current mobile communication system, the target mobile communication system is TD-SCDMA; Perhaps current mobile communication system is TD-SCDMA, and the target mobile communication system is that GSM is an example, and the present invention is described in detail.

Fig. 3 is the method embodiment flow chart synchronous to neighboring BS relationship provided by the invention, has set in advance the system synchronous to neighboring BS relationship, and this system can control GSM and TD-SCDMA simultaneously, and its concrete steps are:

Step 301, the system start-up synchronous to neighboring BS relationship;

The TD-SCDMA Neighboring Relation Table of step 302, collection GSM changes step 303 and step 306 over to;

Cell parameter among step 303, the collection TD-SCDMA changes step 304 and step 306 over to;

The GSM Neighboring Relation Table of step 304, collection TD-SCDMA changes step 305 and step 306 over to;

Cell parameter among step 305, the collection GSM changes step 306 over to;

Step 306, record leak adopts data;

In this step, the data and the initial data of gathering can be compared, thereby definite leakage is adopted data and is write down these leakages and adopt data;

Step 307, according to leakage adopt the record determine whether Lou to adopt, if, execution in step 308; If not, execution in step 309;

After step 308, the data that leakage is adopted are carried out filling mining, change execution in step 309 over to;

Step 309, determine cell parameter and the corresponding cell parameter in TD-SCDMA in the TD-SCDMA neighboring BS relationship among the GSM according to LAC, the TD-SCDMA neighboring BS relationship that carries out among the GSM is analyzed synchronously, determine cell parameter and the corresponding cell parameter in GSM in the GSM neighboring BS relationship among the TD-SCDMA according to LAC, the GSM neighboring BS relationship that carries out among the TD-SCDMA is analyzed synchronously;

Step 310, determine among the GSM the TD-SCDMA neighboring BS relationship whether with TD-SCDMA in the respective cell parameter inconsistent, and the GSM neighboring BS relationship among definite TD-SCDMA whether with GSM in the respective cell parameter inconsistent, if, execution in step 311 and execution in step 314; If not, execution in step 313;

Need synchronous Neighboring Relation Table among step 311, the generation GSM;

Need synchronous Neighboring Relation Table among step 312, the generation TD-SCDMA;

Step 313, generation synch command are carried out synchronously needing synchronous Neighboring Relation Table among GSM and the TD-SCDMA;

Step 314, the neighboring BS relationship that generates GSM and TD-SCDMA are respectively revised script;

Need synchronous neighboring BS relationship among step 315, the manual GSM;

Step 316, manually generate and need synchronous neighboring BS relationship among the TD-SCDMA, change step 313 over to and carry out.

In this embodiment, step 302,303 and step 305,306 between relation can carry out simultaneously, or first execution in step 305,306, execution in step 302,303 again.Step 311 and step 312 can be carried out simultaneously or carry out step 312 earlier, carry out steps 311 again.

In this embodiment, in order to finish the synchronous automation of neighboring BS relationship in next time, also can neighboring BS relationship be set and revise script by step 314～step 316, this is to need manual the setting, like this, when next time, directly move this neighboring BS relationship modification script and can finish this process.

That is to say that the GSM neighboring BS relationship that the embodiment of the invention can be respectively reaches TD-SCDMA synchronously to the TD-SCDMA neighboring BS relationship of GSM carries out synchronously.

TD-SCDMA neighboring BS relationship to GSM carries out synchronous process:

At first, gather TD-SCDMA neighboring BS relationship in the GSM network, according to the sub-district LAC in the neighboring BS relationship by remotely logging on to the TD-SCDMA corresponding district, obtain cell parameter, mainly comprise: sub-district ownership configuration information table and channel configuration table, wherein, has the parameter that is used to identify the TD-SCDMA sub-district in sub-district ownership configuration information table and the channel configuration table: TD-SCDMA cell number (SEG), the RNC value of upgrading (NEWRNC), LAC, the service area code (SAC) of TD-SCDMA sub-district, the scrambler (CPA) of frequency of TD-SCDMA sub-district (FREQ) and TD-SCDMA sub-district; Cell parameter in the Neighboring Relation Table comprises: SEG, NEWRNC, LAC, SAC, FREQ and CPA;

Secondly, according to the uniqueness of LAC, need to determine TD-SCDMA Neighboring Relation Table in the synchronous GSM network; LAC with each sub-district in the Neighboring Relation Table is a keyword, after TD-SCDMA finds corresponding district, relatively whether cell parameter is consistent with the cell parameter in the Neighboring Relation Table, if it is consistent, illustrate that this neighboring BS relationship does not need synchronously, if inconsistent, illustrate that then this neighboring BS relationship needs synchronously;

Once more, derive to need synchronous neighboring BS relationship after, generate the synch command formation of preparation in the operation of the GSM network equipment, keep TD-SCDMA Neighboring Relation Table correct of GSM;

At last, TD-SCDMA Neighboring Relation Table according to the in batches synchronous GSM of synch command formation, the order of adopting can be ordered for the TD-CDMA sub-district (ZEAK) that is provided with in the existing MML order, just carries out synch command behind the Telnet GSM network side, and the MML order ZEAK of setting is:

ZEAK:SEG=0078:INDEX=105:NEWRNC=1651:LAC=24576, SAC=35011, FREQ=10080, CPA=88:, finish GSM the TD-SCDMA Neighboring Relation Table synchronously, wherein: seg is 0078 sub-district, its reference numeral is that new RNC is set is 1651 to the adjacent sub-district of 105 TD, and the location revision region code is 24576, and the service area code is 35001, frequency is 35011, and scrambler is 88.They are the differences according to the sub-district, and the difference of adjacent area is provided with different parameters.And the parameter of each adjacent area all is one to one, and promptly one of them parameter is inaccurate, does not go up the adjacent area with regard to correspondence.

GSM neighboring BS relationship to TD-SCDMA carries out synchronous process:

At first, gather the GSM neighboring BS relationship of TD-SCDMA, according to the sub-district LAC in the neighboring BS relationship by remotely logging on to the GSM corresponding district, obtain cell parameter, be used to identify the parameter of GSM sub-district, comprise: GSM cell number CID, LAC, NID NCC, base station identity code BCC and route district sign indicating number RAC; Cell parameter in the neighboring BS relationship comprises: CID, LAC, NCC, BCC and RAC;

Secondly, according to the uniqueness of LAC, need to determine the GSM neighboring BS relationship of synchronous TD-SCDMA; LAC with each sub-district in the Neighboring Relation Table is a keyword, and after GSM found corresponding district, relatively whether cell parameter was consistent with this neighboring BS relationship, if it is consistent, illustrate that this neighboring BS relationship does not need synchronously,, illustrate that then this neighboring BS relationship needs synchronously if inconsistent;

Once more, derive to need synchronous neighboring BS relationship after, generate the synch command formation of preparation in the operation of the TD-SCDMA network equipment, keep GSM neighboring BS relationship correct of TD-SCDMA;

At last, GSM neighboring BS relationship according to the in batches synchronous TD-SCDMA of synch command formation, the order of adopting can be ordered for the GSM sub-district (SET GSMCELL) that is provided with in the existing MML order, just carries out synch command behind the Telnet TD-SCDMA, and the MML order SETGSMCELL of setting is:

SET?GSMCELL：OMCRNCID＝1651，MCC＝460，MNC＝0，LAC＝22823，CI＝13022，NCC＝7，BCC＝6，BCCHARFCN＝65，MAXULTXPWR＝30，HCSPRIO＝0，QRXLEVMINSIB11＝-99，QRXLEVMINSIB12＝-99，RAC＝254。RACC=0, finish TD-SCDMA the GSM Neighboring Relation Table synchronously, wherein, OMCRNCID is the RNC value of TD sub-district, aft section is the GSM cell parameter, and MCC is national identification code, and MNC is a NID, LAC is a location area code, CI is a cell id, NCC NID, BCC base station identity code, BCCHARFCN is the main carrier working frequency points, MAXULTXPWR is a gsm sub-district maximum transmission power, and QRXLEVMINSIB11 and QRXLEVMINSIB12 are that the minimum of definition gsm sub-district inserts level, and RAC is the Routing Area sign indicating number, it is unique that above-mentioned parameter mainly is used for discerning the gsm sub-district, and transmitting power and access level can be set to other numerical value.

In embodiments of the present invention, when the parameter modification of GSM sub-district, the synchronous system of neighboring BS relationship also can trigger the GSM neighboring BS relationship among the TD-SCDMA according to the LAC of sub-district, and neighboring BS relationship parameter corresponding in this neighboring BS relationship is carried out synchronously; When the parameter modification of TD-SCDMA sub-district, the synchronous system of neighboring BS relationship also can trigger the TD-SCDMA neighboring BS relationship among the GSM according to the LAC of sub-district, and neighboring BS relationship parameter corresponding in this neighboring BS relationship is carried out synchronously, and detailed process is:

At first, according to corresponding district in the GSM neighboring BS relationship among the LAC collection TD-SCDMA of the GSM sub-district of revising parameter, perhaps according to corresponding district in the TD-SCDMA neighboring BS relationship among the LAC collection GSM of the TD-SCDMA sub-district of revising parameter; Then, derive this cell parameter, generate synch command; At last, this cell parameter is carried out synchronously,, adopt MML order ZEAK,, adopt MML order SET GSMCELL for TD-SCDMA for GSM according to synch command.

Below each module in the neighboring BS relationship synchro system provided by the invention formed be elaborated.

Fig. 4 is acquisition module 201 structural representations provided by the invention, comprise: logging modle, filling mining module and data memory module are adopted in the cell data acquisition module of the cell data acquisition module of GSM, the TD-SCDMA neighboring BS relationship acquisition module among the GSM, TD-SCMDA, the GSM neighboring BS relationship acquisition module among the TD-SCDMA, leakage, wherein

The cell data acquisition module of GSM is used to gather the GSM cell parameter, sends to data memory module and logging modle is adopted in leakage;

TD-SCDMA neighboring BS relationship acquisition module among the GSM is used for gathering the TD-SCDMA neighboring BS relationship of GSM, sends to data memory module and logging modle is adopted in leakage;

The cell data acquisition module of TD-SCMDA is used to gather the cell parameter of TD-SCDMA and sends to data memory module and logging modle is adopted in leakage;

GSM neighboring BS relationship acquisition module among the TD-SCDMA is used for gathering the GSM neighboring BS relationship of TD-SCDMA, sends to data memory module and logging modle is adopted in leakage;

Logging modle is adopted in leakage, and after being used for determining whether to adopt data according to each parameter of receiving, indication filling mining module is carried out filling mining with Louing, with each cell parameter of filling mining or/and neighboring BS relationship sends to data memory module stores;

Data memory module is used to store TD-SCDMA neighboring BS relationship, the GSM cell parameter of GSM, GSM neighboring BS relationship and the TD-SCDMA cell parameter of TD-SCDMA.

After having passed through such collection, just obtained all cell datas of GSM and TD-SCDMA, and TD-SCDMA Neighboring Cell List among the GSM and the GSM Neighboring Cell List among the TD-SCDMA.

Fig. 5 is the flow chart of acquisition module 201 implementations provided by the invention, and its concrete steps are:

The cell data acquisition module of step 501, GSM is gathered the GSM cell parameter, changes step 511 and step 502 over to;

Step 502, determine whether Lou to adopt, if, execution in step 509, if not, then execution in step 503;

In this step, determine whether Lou to adopt, can adopt the GSM cell parameter gathered and the GSM cell parameter of storage to compare definite;

TD-SCDMA neighboring BS relationship acquisition module among step 503, the GSM is gathered the TD-SCDMA neighboring BS relationship among the GSM, changes step 511 and step 504 over to;

Step 504, determine whether Lou to adopt, if, execution in step 509, if not, then execution in step 505;

The cell data acquisition module of step 505, TD-SCDMA is gathered the TD-SCDMA cell parameter, changes step 511 and step 506 over to;

Step 506, determine whether Lou to adopt, if, execution in step 509, if not, then execution in step 507;

GSM neighboring BS relationship acquisition module among step 507, the TD-SCDMA is gathered the GSM neighboring BS relationship among the TD-SCDMA, changes step 511 and step 508 over to;

Step 508, determine whether Lou to adopt, if, execution in step 509, if not, then execution in step 511;

Step 509, leak and to adopt logging modle and breath is accepted and believed in all leakages carried out record;

Step 510, filling mining module change step 511 over to after the leakage of being write down is accepted and believed breath and carried out filling mining;

The data that step 511, data memory module storage obtain.

In this embodiment, obtain the GSM cell data, obtain TD-SCDMA neighboring BS relationship among the GSM, obtain GSM neighboring BS relationship among the TD-SCDMA by existing MML order ZEAL by existing MML order ZEAO by existing MML order ZEQO and ZEEI.Cause certain cell parameter or neighboring BS relationship collection not full-time when in gatherer process, occurring unusual, then by leakage adopt the logging modle record leak adopt data after, carry out filling mining by the filling mining module.

Fig. 6 is analysis provided by the invention and sign neighboring BS relationship module 202 structural representations, comprising:

TD-SCDMA neighboring BS relationship package module among the GSM after being used for TD-SCDMA neighboring BS relationship to GSM and encapsulating, offers the TD-SCDMA neighboring BS relationship analysis module among the GSM;

TD-SCDMA cell data package module after being used for the TD-SCDMA cell parameter encapsulated, offers the TD-SCDMA neighboring BS relationship analysis module among the GSM;

TD-SCDMA neighboring BS relationship analysis module among the GSM be used for the TD-SCDMA sub-district of the sub-district correspondence in the TD-SCDMA neighboring BS relationship that LAC according to the sub-district determines GSM, and whether consistent, obtain analysis result if analyzing both parameters, send to identification module as a result;

GSM neighboring BS relationship package module among the TD-SCDMA after being used for GSM Neighboring Relation Table to TD-SCDMA and encapsulating, offers the GSM neighboring BS relationship analysis module among the TD-SCDMA;

GSM cell data package module after being used for the GSM cell parameter encapsulated, offers the GSM neighboring BS relationship analysis module among the TD-SCDMA;

GSM neighboring BS relationship analysis module among the TD-SCDMA be used for the GSM sub-district of the sub-district correspondence in the GSM neighboring BS relationship that LAC according to the sub-district determines TD-SCDMA, and whether consistent, obtain analysis result if analyzing both parameters, send to identification module as a result;

Identification module is used to add up the analysis result that obtains as a result, obtains needing GSM neighboring BS relationship among the synchronous TD-SCDMA and the TD-SCDMA neighboring BS relationship among the GSM.

Fig. 7 is analysis provided by the invention and the flow chart that identifies neighboring BS relationship module 202 implementations, and its concrete steps are:

TD-SCDMA Neighboring Relation Table package module among step 701, the GSM encapsulates the TD-SCDMA neighboring BS relationship among the GSM;

Step 702, TD-SCDMA cell data package module encapsulate the TD-SCDMA cell parameter;

Whether the encapsulation process of step 703, determining step 701 and step 702 is normal, if, execution in step 704, if not, then execution in step 712;

TD-SCDMA neighboring BS relationship analysis module among step 704, the GSM is determined the TD-SCDMA sub-district of the sub-district correspondence in the TD-SCDMA Neighboring Relation Table among the GSM according to the LAC of sub-district, and whether consistent, obtain analysis result if analyzing both parameters;

Whether the analytic process of step 705, determining step 704 is normal, if, execution in step 706; If not, execution in step 712;

GSM Neighboring Relation Table package module among step 706, the TD-SCDMA encapsulates the GSM neighboring BS relationship among the TD-SCDMA;

Step 707, GSM cell data package module encapsulate the GSM cell parameter;

Whether the encapsulation process of step 708, determining step 706 and step 707 is normal, if, execution in step 709, if not, then execution in step 712;

GSM neighboring BS relationship analysis module among step 709, the TD-SCDMA is determined the GSM sub-district of the sub-district correspondence in the GSM Neighboring Relation Table among the TD-SCDMA according to the LAC of sub-district, and whether consistent, obtain analysis result if analyzing both parameters;

Whether the analytic process of step 710, determining step 709 is normal, if, execution in step 711; If not, execution in step 712;

Step 711, the analysis result that obtains of identification module statistics as a result needing to obtain GSM neighboring BS relationship among the synchronous TD-SCDMA and the TD-SCDMA neighboring BS relationship among the GSM;

Step 712, generation abnormal log finish.

In this process, the process of step 701～step 705 and step 706～step 710 can be carried out simultaneously, also can first execution in step 706～step 710, and then execution in step 701～step 705.

In this process, the mode that encapsulation is adopted can have multiple, does not limit here.

Fig. 8 is derivation and generation synch command module 203 structural representations that need synchronized cells provided by the invention, comprising:

Analyze and sign result's data encapsulation module, be used for the GSM neighboring BS relationship that obtains the synchronous TD-SCDMA of needs and the TD-SCDMA neighboring BS relationship among the GSM are encapsulated;

Data derive engine modules, are used for the GSM neighboring BS relationship of the synchronous TD-SCDMA of the needs of encapsulation and the setting that the TD-SCDMA neighboring BS relationship among the GSM is derived engine;

Data derive module, are used for deriving under the control of data derivation engine modules the GSM neighboring BS relationship of the synchronous TD-SCDMA of needs and the TD-SCDMA neighboring BS relationship among the GSM.

Fig. 9 is the workflow diagram that needs the derivation of synchronized cells and generate synch command module 203 provided by the invention, and its concrete steps are:

Step 901, analyze and sign result's data encapsulation module needing to obtain GSM neighboring BS relationship among the synchronous TD-SCDMA and the TD-SCDMA neighboring BS relationship among the GSM;

The data that step 902, analysis and sign result's data encapsulation module obtains according to script command format organization;

Step 903, analysis and sign result's data encapsulation module encapsulates the data that obtain according to the output format that is provided with;

Step 904, analysis and sign result's data encapsulation module judges whether that encapsulation is unusual, if, execution in step 911; If not, execution in step 905;

Step 905, data derive engine modules and select data output format;

In this step, selectable form can be .xls, text formatting etc.;

Step 906, data derive engine modules and select data-driven control bag;

Step 907, data derive engine modules the data load of step 903 encapsulation are wrapped to driving control;

Step 908, data derive engine modules and determine whether engine processing is normal, if then execution in step 909; Otherwise, execution in step 910;

Step 909, data derive the module derived data to appointed positions;

Step 910, generation abnormal log finish.

In this process, the data encapsulation module of analyzing and identify the result is according to the MML command format is set, GSM neighboring BS relationship among the synchronous TD-SCDMA of needs and the TD-SCDMA neighboring BS relationship among the GSM are encapsulated, when encapsulation, can add out of Memory, identify such as RNC etc.

Figure 10 is the structural representation of synchronization module 204, comprising:

TD-SCDMA neighboring BS relationship among the GSM imports module in batches, is used in batches TD-SCDMA neighboring BS relationship to GSM and carries out cell parameter and carry out synchronously;

GSM neighboring BS relationship among the TD-SCDMA imports module in batches, is used in batches GSM neighboring BS relationship to TD-SCDMA and carries out cell parameter and carry out synchronously.

Figure 11 is the workflow diagram that the TD-SCDMA neighboring BS relationship among the GSM imports module in batches, and its concrete steps are:

Neighboring BS relationship is proofreaied and correct in step 1101, startup in batches;

In step 1102, the TD-SCDMA neighboring BS relationship in GSM, find and want synchronous sub-district;

Step 1103, batch are deleted these cell parameters;

Step 1104, judge whether delete procedure is normal, if normal, execution in step 1105; If undesired, execution in step 1108;

Step 1105, batch are reset the parameter of these sub-districts;

Step 1106, determine whether setting up procedure is normal, if normal, execution in step 1107; If undesired, execution in step 1108;

TD-SCDMA neighboring BS relationship among step 1107, the synchronous GSM is finished;

Step 1108, generation abnormal log finish.

Figure 12 is the workflow diagram that the GSM neighboring BS relationship among the TD-SCDMA imports module in batches,

Its concrete steps are:

Neighboring BS relationship is proofreaied and correct in step 1201, startup in batches;

In step 1102, the GSM neighboring BS relationship in TD-SCDMA, find and want synchronous sub-district;

Step 1203, batch are deleted these cell parameters;

Step 1204, judge whether delete procedure is normal, if normal, execution in step 1205; If undesired, execution in step 1208;

Step 1205, batch are reset the parameter of these sub-districts;

Step 1206, determine whether setting up procedure is normal, if normal, execution in step 1207; If undesired, execution in step 1208;

GSM neighboring BS relationship among step 1207, the synchronous TD-SCDMA is finished;

Step 1208, generation abnormal log finish.

More than lift preferred embodiment; the purpose, technical solutions and advantages of the present invention are further described; institute is understood that; the above only is preferred embodiment of the present invention; not in order to restriction the present invention; within the spirit and principles in the present invention all, any modification of being done, be equal to and replace and improvement etc., all should be included within protection scope of the present invention.

Claims

1. method synchronous to neighboring BS relationship is characterized in that this method comprises:

2. the method for claim 1, it is characterized in that, this method also comprises: after the cell parameter of target mobile communication system is revised, in the neighboring BS relationship of current mobile communication system, find corresponding district according to the LAC of this sub-district after, the parameter of this sub-district synchronously.

3. method as claimed in claim 1 or 2 is characterized in that, described current mobile communication system is digital cellular mobile communication systems GSM, and described target mobile communication system is time division multiplexing mobile communication system TD-SCDMA.

4. method as claimed in claim 3, it is characterized in that the cell parameter of described neighboring BS relationship is the parameter that is used to identify the TD-SCDMA sub-district: the service area code SAC of TD-SCDMA cell number SEG, RNC value NEWRNC, the LAC that will upgrade, TD-SCDMA sub-district, the frequency FREQ of TD-SCDMA sub-district and the scrambler CPA of TD-SCDMA sub-district;

The described man-machine interaction of employing synchronously language MML order is carried out.

5. method as claimed in claim 1 or 2 is characterized in that, described current mobile communication system is TD-SCDMA, and described target mobile communication system is TD-SCDMA.

6. method as claimed in claim 5 is characterized in that, the cell parameter of described neighboring BS relationship is the parameter that is used to identify the GSM sub-district, comprising: GSM cell number CID, LAC, NID NCC, base station identity code BCC and route district sign indicating number RAC;

The described MML of employing synchronously order is carried out.

7. the method for claim 1 is characterized in that, and is described after each cell parameter of the neighboring BS relationship of gathering current mobile communication system and target mobile communication system, also comprises:

Determine whether Lou to adopt, if carry out filling mining.

8. a system synchronous to neighboring BS relationship is characterized in that, comprising: acquisition module, analysis and sign neighboring BS relationship module, the derivation that needs synchronized cells and generation synch command module and synchronization module, wherein,

9. system as claimed in claim 8, it is characterized in that, after described cell parameter when the target mobile communication system was revised, all right triggering collection module was used for finding corresponding district according to the LAC of sub-district at the Neighboring Relation Table of current mobile communication system;

Need the derivation of synchronized cells and generate the synch command module, also be used to generate the order of this sub-district synchronously;

Synchronization module is used for carrying out the synchronous of this cell parameter according to this synch command.

10. system as claimed in claim 8 is characterized in that, described acquisition module comprises:

11. system as claimed in claim 8 is characterized in that, described analysis comprises with sign neighboring BS relationship module:

12. system as claimed in claim 8 is characterized in that, the described derivation of synchronized cells and the generation synch command module of needing comprises:

13. system as claimed in claim 8 is characterized in that, described synchronization module comprises: